- Remove the current class from the content27_link item as Webflows native current state will automatically be applied.
- To add interactions which automatically expand and collapse sections in the table of contents select the content27_h-trigger element, add an element trigger and select Mouse click (tap)
- For the 1st click select the custom animation Content 27 table of contents [Expand] and for the 2nd click select the custom animation Content 27 table of contents [Collapse].
- In the Trigger Settings, deselect all checkboxes other than Desktop and above. This disables the interaction on tablet and below to prevent bugs when scrolling.
For neuroscientists and brain-computer interface researchers, quality EEG data has always come with a steep price: complex setups, hours of preparation, and expensive equipment that limits who can participate in this critical field. The Neurable Research Kit is changing this paradigm entirely.
By transforming high-quality EEG data collection into a simple, accessible experience, we're removing the barriers that have frustrated researchers for decades. Our innovative approach combines research-grade technology in a comfortable headphone design with intuitive software and transparent pricing—all built around an open science philosophy.
Here's why researchers across disciplines are switching to the Neurable Research Kit to accelerate their work and expand what's possible in brain research:
Simplifying the Research Setup to Remove the Greatest Bottleneck to EEG Research
Traditional EEG research is notorious for its time-consuming setup—cumbersome electrode caps, messy conductive gels, and intricate wiring that frustrates both researchers and participants alike.
The MW75 Neuro eliminates these pain points by embedding research-grade EEG sensors within a comfortable, elegant headphone design. Unlike competing solutions that promise simplicity but fall short, the MW75 Neuro actually delivers on ease of use. Researchers can simply place the headphones on a participant and begin collecting high-quality data immediately—transforming what was once a technical ordeal into a straightforward process that saves hours of valuable research time.
Making EEG Data Accessible to Every Researcher
One of the biggest frustrations in EEG research is the difficulty of accessing and storing raw EEG data. Many systems make it unnecessarily complicated to export data in a usable format or require extensive data conversion/reformatting.
The Neurable Research Kit solves this problem by providing instant access to raw EEG data in basic CSV format straight from the headset. There are no proprietary roadblocks, only clean and reliable data.
Connect and Collect with Wireless, Reliable, Bluetooth Connectivity
Traditional EEG systems often require specialized, expensive dongles and proprietary tooling that tie researchers to a single ecosystem. The Neurable Research Kit uses standard Bluetooth connections and, when necessary, can be augmented with off-the-shelf Bluetooth antenna for increased reliability. No proprietary solutions are required in order to connect and collect EEG data. Users can connect to any Bluetooth device without the need for extra adapters or additional costs for a seamless integration into EEG data collecting out of the box.
Top Quality Research Equipment Hidden in a Consumer Form-Factor
The MW75 Neuro Research Kit provides researchers with a powerful tool disguised in a consumer-friendly design. This allows for high-quality data collection and analysis without the need for bulky or conspicuous equipment. Compared to other consumer-grade neurotechnology devices, which may be unreliable or inaccurate, the MW75 is specifically engineered for research purposes, ensuring that your findings are based on sound data.
Upgrade your research capabilities and leave behind the limitations of consumer neuro-toys by utilizing the MW75 Neuro Research Kit.
Modern, Intuitive Software
Most EEG software is outdated, clunky, and unnecessarily complex. Neurable’s software is modern, clean, and easy to use. Instead of spending hours troubleshooting, researchers can focus on what matters most: collecting and analyzing high quality EEG data.
In an industry often driven by overpromising and underdelivering, Neurable’s approach is refreshingly different. There is no hype machine here; instead, researchers receive high quality, research grade EEG data that works reliably and efficiently. Designed for the MW75 Neuro and future Neurable devices, it ensures consistency and compatibility, supporting researchers every step of the way.
Transparent Pricing with No Subscription Hassles
The BCI and EEG space is littered with unclear and unfaithful pricing strategies. Log onto most websites and you won't be able to find any inkling of price. Dive deeper and you will learn of the disingenuous strategies of companies to custom price products based on their customer profile with hidden fees and complicated subscription models.
Neurable takes a different approach by offering a one time transparent purchase that gives researchers perpetual access. There are no hidden costs or long term commitments, only straightforward, high quality EEG tools.
The Bottom Line:Research-Grade EEG Without the Headaches
The Neurable Research Kit represents a fundamental shift in how EEG research can be conducted. We've stripped away the complexity, the hidden costs, and the technical barriers without compromising on data quality. What remains is what matters most: reliable, accessible brain data that works when you need it to.
This isn't just for traditional neuroscience labs. With the Neurable Research Kit, EEG research becomes accessible to sociologists, political scientists, engineers, artists, and educators who previously couldn't justify the cost or complexity of traditional systems. A world where collecting high quality EEG at home, in the office, or elsewhere without the need for oversight of researchers has become unlocked. It's both an entry point for newcomers and a refreshing alternative for experienced researchers tired of fighting with outdated technology.
Every aspect of the Research Kit—from the comfortable MW75 Neuro headset to our straightforward software and one-time pricing—was designed with a single purpose: to let you focus on your research questions instead of your research equipment.
Ready to transform how you collect and analyze brain data? Learn more about the Neurable Research Kit and join the growing community of researchers who have simplified their EEG workflows without sacrificing quality: www.neurable.com/products/research-kit
2 Distraction Stroop Tasks experiment: The Stroop Effect (also known as cognitive interference) is a psychological phenomenon describing the difficulty people have naming a color when it's used to spell the name of a different color. During each trial of this experiment, we flashed the words “Red” or “Yellow” on a screen. Participants were asked to respond to the color of the words and ignore their meaning by pressing four keys on the keyboard –– “D”, “F”, “J”, and “K,” -- which were mapped to “Red,” “Green,” “Blue,” and “Yellow” colors, respectively. Trials in the Stroop task were categorized into congruent, when the text content matched the text color (e.g. Red), and incongruent, when the text content did not match the text color (e.g., Red). The incongruent case was counter-intuitive and more difficult. We expected to see lower accuracy, higher response times, and a drop in Alpha band power in incongruent trials. To mimic the chaotic distraction environment of in-person office life, we added an additional layer of complexity by floating the words on different visual backgrounds (a calm river, a roller coaster, a calm beach, and a busy marketplace). Both the behavioral and neural data we collected showed consistently different results in incongruent tasks, such as longer reaction times and lower Alpha waves, particularly when the words appeared on top of the marketplace background, the most distracting scene.
Interruption by Notification: It’s widely known that push notifications decrease focus level. In our three Interruption by Notification experiments, participants performed the Stroop Tasks, above, with and without push notifications, which consisted of a sound played at random time followed by a prompt to complete an activity. Our behavioral analysis and focus metrics showed that, on average, participants presented slower reaction times and were less accurate during blocks of time with distractions compared to those without them.
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